Perchlorate salts lower the vitrification point of Bacillus Subtilis to temperatures lower than those expected beneath the Martian south pole
Résumé
The discovery of lakes beneath the Martian south pole has led to questions of their
habitability. These lakes should be characterised by incredibly low temperatures,
around -70°C, and high concentrations of eutectic compounds, such as perchlorate
salts, in order to facilitate their liquid nature at such low temperatures (1,2). Previous
research has shown that the low temperature limit for life is physically set by the
onset of intracellular vitrification, which typically occurs around -23°C (3). This
suggests that any potential life found within these lakes would be vitrified and
preserved as opposed to being biologically active. However, as perchlorate salts can
greatly depress the freezing point of water, the question arose as to whether they
could likewise reduce the point at which cells vitrify. Using differential scanning
calorimetry and fluorescence microscopy and spectroscopy, we found that Mg(ClO4)2
lowered the vitrification point of Bacillus Subtilis cells in a concentration dependent
fashion from 0.6M onwards. Additionally, we found that 2.5M Mg(ClO4)2 lowered the
vitrification point of Bacillus Subtilis to -83°C, therefore suggesting that cells could
remain in an active, liquid-like state beneath the Martian south pole if they could
tolerate such high perchlorate concentrations alongside extremely low temperatures.
These results also represent a new theoretical low temperature limit for life.
Acknowledgments
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